Structure and Mechanics of Textile Fibre AssembliesPeter Schwartz Elsevier, 7 okt 2008 - 264 pagina's Textile structure and mechanics are fundamental to the way textiles are designed, manufactured, tested and used. Structure and mechanics of textile fibre assemblies discusses aspects of fabric structure and mechanical properties such as tensile, bending and shear properties for a range of fabrics.After a general introduction illustrating the role of fabric structure and mechanics, subsequent chapters discuss the structural, tensile, bending and shear properties of woven, knitted and nonwoven fabrics. Other chapters review the structure and mechanics of yarns, coated fabrics, 2D and 3D textile composites. Testing methods for the measurement of fabric mechanical properties and structure parameters are also explored.With its renowned editor and contributions from some of the world’s leading authorities, Structure and mechanics of textile fibre assemblies is an important reference for textile scientists, technologists, engineers and those designing and manufacturing textiles. It will also be suitable for those within the academic sector.
|
Inhoudsopgave
1 | |
4 | |
3 Structure and mechanics of woven fabrics | 48 |
4 Structure and mechanics of knitted fabrics | 84 |
5 Structure and mechanics of nonwovens | 116 |
Overige edities - Alles bekijken
Veelvoorkomende woorden en zinsdelen
analysis angle applied approach assemblies averaging behavior bending bonding braided calculated chapter cloth coated fabrics composites considered continuous course curvature curve deformation depending described determined developed direction Edited effect elastic element elongation energy engineering equation example experimental extension factor failure fiber force friction function geometry given higher hysteresis important increase initial Institute Journal knitted fabrics laminate length load loop lower machine material matrix measured mechanical method modulus nonwoven nonwoven fabrics orientation parameters performance plain Polymer predictions properties ratio reference reinforcement relationship Research result rigidity sample shape shear shown shows specimen stiffness stitch strain strength stress structure surface tear Technology tensile Textile thickness tion twist typically unit cell volume wale warp knitted weave weft knitted width woven fabrics yarn